Traditional polymeric materials have pushed the progress of human society by providing numerous light-weight and mechanically robust polymer products. However, these materials also have caused serious resource waste and environmental pollution. Replacing traditional polymeric materials with healable, recyclable and degradable polymeric materials can effectively solve the problems of resource waste and environmental pollution, which is of great significance to the construction of sustainable society. In this review, we systematically summarized the recent development of noncovalently cross-linked polymeric materials capable of healing, recycling and degrading. We demonstrated that the synergy of multiple reversible interactions and micro-/nanostructures provides an effective way to the fabrication of healable and recyclable polymer materials with high mechanical strength, high toughness and excellent damage tolerance as well as degradable supramolecular plastics with good environmental stability. Cross-linking polymer chains with non-covalent interactions and dynamic covalent bonds is practically useful for the fabrication of healable, recyclable and degradable polymeric materials.